Differential Control of Adrenal and Sympathetic Catecholamine Release by Alpha 2-adrenoceptor Subtypes

Overview

Journal Mol Endocrinol

Specialties Endocrinology
Molecular Biology

Date 2003 May 24

PMID 12764077

Citations 58

Authors

Marc Brede

Gabor Nagy

Melanie Philipp

Jakob B Sorensen

Martin J Lohse

Lutz Hein

Affiliations

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Abstract

In the adrenergic system, release of the neurotransmitter norepinephrine from sympathetic nerves is regulated by presynaptic inhibitory alpha2-adrenoceptors, but it is unknown whether release of epinephrine from the adrenal gland is controlled by a similar short feedback loop. Using gene-targeted mice we demonstrate that two distinct subtypes of alpha2-adrenoceptors control release of catecholamines from sympathetic nerves (alpha 2A) and from the adrenal medulla (alpha 2C). In isolated mouse chromaffin cells, alpha2-receptor activation inhibited the electrically stimulated increase in cell capacitance (a correlate of exocytosis), voltage-activated Ca2+ current, as well as secretion of epinephrine and norepinephrine. The inhibitory effects of alpha2-agonists on cell capacitance, voltage-activated Ca2+ currents, and on catecholamine secretion were completely abolished in chromaffin cells isolated from alpha 2C-receptor-deficient mice. In vivo, deletion of sympathetic or adrenal feedback control led to increased plasma and urine norepinephrine (alpha 2A-knockout) and epinephrine levels (alpha 2C-knockout), respectively. Loss of feedback inhibition was compensated by increased tyrosine hydroxylase activity, as detected by elevated tissue dihydroxyphenylalanine levels. Thus, receptor subtype diversity in the adrenergic system has emerged to selectively control sympathetic and adrenal catecholamine secretion via distinct alpha2-adrenoceptor subtypes. Short-loop feedback inhibition of epinephrine release from the adrenal gland may represent a novel therapeutic target for diseases that arise from enhanced adrenergic stimulation.

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